Power System Protection: Course Curriculum and Learning Outcomes, Exams of Power Electronics

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SRM Institute of Science & Technology – Academic Curricula (2018 Regulations)
1
Course
Code 18EEC305T Course
Name Power System Protection Course
Category C Professional Core L T P C
3 0 0 3
Pre
-
requisite
Courses Nil
Co
-
requisite
Courses Nil
Progressive
Courses Nil
Course Offering Department
Engineering
Data Book / Codes/Standards
Nil
Course Learning Rationale (CLR): The purpose of learning this course is to:
Learning
Program Learning Outcomes (PLO)
CLR
-
1 :
Understand the principles of modern power system protection
1
2
3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CLR
-
2 :
Enumerate the various protecti
on
schemes
Level of Thinking (Bloom)
Expected Proficiency (%)
Expected Attainment (%)
Engineering Knowledge
Problem Analysis
Design & Development
Analysis, Design, Research
Modern Tool Usage
Society & Culture
Environment & Sustainability
Ethics
Individual & Team Work
Communication
Project Mgt. & Finance
Life Long Learning
PSO
- 1
PSO
- 2
PSO
- 3
CLR
-
3 :
Acquire the knowledge of protection of Generator, Transf
ormer
and
Busbar protection system
CLR
-
4 :
Understand the various
types of digital protection and relay coordination
CLR
-
5 :
Describe the protection
of
switchgears in sub
-
station and its relay setting calculations
CLR
-
6
:
Gain an overall knowledge of power system protection concepts in various applications
Course Learning Outcomes (CLO):
At the end of this course, learners will be able to:
CLO
-
1 :
Recognize the power system protection basics and standards
2
80
75
H
-
-
-
-
-
-
M
-
-
-
-
M
M
M
CLO-2 : Employ various protective schemes and needed instruments 3 80 75 H H - - - - - - - - - - M M -
CLO
-
3 :
Explain the various equipment protection and its characteristics
3
80
75
H
H
-
-
-
-
-
-
-
-
-
-
M
M
-
CLO
-
4 :
Familiarise various relay algorithms and applications of digital protection
3
80
75
H
H
-
-
M
-
-
-
-
-
-
-
H
H
-
CLO
-
5 :
Analyse
the use of protection
and
switchgears
3
80
75
H
H
-
-
-
-
-
-
-
-
-
-
M
M
-
CLO
-
6
:
Apply
power system protection
concepts
in
real time
environment
3
80
75
H
H
-
-
M
-
-
M
-
-
-
-
H
H
M
Duration 9 9 9 9 9
S-1
SLO-1
Introduction to power system protection Over current protection Transformer protection
Introduction to Digital relays
-
Numericalrelays Fuses – Types
SLO-2
Basic requirements Characteristics of over current protection Differential protection Functional blocks of numericalrelay Construction of fuse
S-2
SLO-1
Main components of protections Over current protection coordination Percentage biaseddifferential protection Numerical over currentrelayalgorithm F use characteristics
SLO-2
Functions of protection Relay setting calculation
Differential protection scheme for various
types of three phase transformer Numerical over currentrelayFlow chart Applicaion of fuse
S-3
SLO-1
IEC – IEEE standards for protection Numericalproblems for over current setting
Numericalproblems for
differential
protection Numericaldifferentialrelayalgorithm Theory of current interruption,
SLO-2
ANSI standards for protection Numericalproblems for over current setting
Numericalproblems for differential
protection NumericaldifferentialrelayFlow chart Arc quenching – Interruption theories
S-4
SLO-1
Zone of protection - overlapping Directional over currentrelay
Magnetizinginrushcurrent and
harmonicsrestraintmethod Numerical distance relayalgorithm Recovery and Restriking voltages
SLO-2
Primary – back up protection
Charcateristics of directional over
currentrelay
Over fluxing protection, Incipientfault
protection - Buchholz Relay Numerical distance relayFlow chart RRRV
S-5
SLO-1
Unit, Non – Unit protection Principle of distance protection Alternator protection Fibre Optic basedrelaying
Types of circuit breakers
-
Bulk oil, Minimum
oil circuit breakers
SLO-2
Applications of unit, non-unit protection Charcateristics of distance relay stator protection Fibre opticrelayFunctions - application Functions - applications
S-6
SLO-1
Other types of protection schemes
Simple impedance, Reactance and
Mhorelay Rotor protection Wide Area Protection - functions Air break, Air blast circuit breakers
SLO-2
Applications of protection schemes Characteristics of impedancerealy
Protection againstabnormal condition
-
unbalancedloading, Over-speeding
Introduction to simulation of relay
coordination Functions - applications
pf2

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SRM Institute of Science & Technology – Academic Curricula (2018 Regulations)

Course Code 18EEC305T^ Course Name Power System Protection^ Course Category C^ Professional Core^

L T P C

Pre-requisite Courses Nil^ Co-requisite Courses Nil^ Progressive Courses Nil Course Offering Department Electrical and Electronics Engineering Data Book / Codes/Standards Nil Course Learning Rationale (CLR): The purpose of learning this course is to: Learning Program Learning Outcomes (PLO) CLR-1 : Understand the principles of modern power system protection 1 2 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 CLR-2 : Enumerate the various protection schemes Level of Thinking (Bloom) Expected Proficiency (%) Expected Attainment (%) Engineering Knowledge Problem Analysis Design & Development Analysis, Design, Research Modern Tool Usage Society & Culture Environment & Sustainability Ethics Individual & Team Work Communication Project Mgt. & Finance Life Long Learning PSO

  • 1 PSO
    • 2 PSO
      • 3 CLR-3 : Acquire the knowledge of protection of Generator, Transformer and Busbar protection system CLR-4 : Understand the various types of digital protection and relay coordination CLR-5 : Describe the protection of switchgears in sub-station and its relay setting calculations CLR- 6 : Gain an overall knowledge of power system protection concepts in various applications Course Learning Outcomes (CLO): At the end of this course, learners will be able to: CLO-1 : Recognize the power system protection basics and standards 2 80 75 H - - - - - - M - - - - M M M CLO-2 : Employ various protective schemes and needed instruments 3 80 75 H H - - - - - - - - - - M M - CLO-3 : Explain the various equipment protection and its characteristics 3 80 75 H H - - - - - - - - - - M M - CLO-4 : Familiarise various relay algorithms and applications of digital protection 3 80 75 H H - - M - - - - - - - H H - CLO-5 : Analyse the use of protection and switchgears 3 80 75 H H - - - - - - - - - - M M - CLO- 6 : Apply power system protection concepts in real time environment 3 80 75 H H - - M - - M - - - - H H M Duration 9 9 9 9 9 S- SLO-1 Introduction to power system protection Over current protection Transformer protection Introduction to Digital relays Numericalrelays - Fuses – Types SLO-2 (^) Basic requirements Characteristics of over current protection Differential protection Functional blocks of numericalrelay Construction of fuse S- SLO-1 Main components of protections Over current protection coordination Percentage biaseddifferential protection Numerical over currentrelayalgorithm Fuse characteristics SLO-2 (^) Functions of protection Relay setting calculation Differential protection scheme for various types of three phase transformer Numerical over currentrelayFlow chart Applicaion of fuse S- SLO-1 IEC – IEEE standards for protection Numericalproblems for over current setting Numericalproblems for protection differential Numericaldifferentialrelayalgorithm Theory of current interruption, SLO-2 ANSI standards for protection Numericalproblems for over current setting Numericalproblems for differential protection NumericaldifferentialrelayFlow chart Arc quenching – Interruption theories S- SLO-1 Zone of protection - overlapping Directional over currentrelay Magnetizinginrushcurrent and harmonicsrestraintmethod Numerical distance relayalgorithm Recovery and Restriking voltages SLO-2 Primary – back up protection Charcateristics of directional over currentrelay^ Over fluxing protection, Incipientfault protection - Buchholz Relay Numerical distance relayFlow chart RRRV S- SLO-1 Unit, Non – Unit protection Principle of distance protection Alternator protection Fibre Optic basedrelaying Types of circuit breakers oil circuit breakers^ - Bulk oil, Minimum SLO-2 Applications of unit, non-unit protection Charcateristics of distance relay stator protection Fibre opticrelayFunctions - application Functions - applications S- SLO-1 Other types of protection schemes Simple impedance, Reactance and Mhorelay Rotor protection Wide Area Protection - functions Air break, Air blast circuit breakers SLO-2 (^) Applications of protection schemes Characteristics of impedancerealy Protection againstabnormal condition unbalancedloading, Over-speeding^ -^ Introduction to simulation of relay coordination Functions - applications

SRM Institute of Science & Technology – Academic Curricula (2018 Regulations)

S-

SLO-1 Current Transformer for protection Threestep distance protection Loss of excitation Applications of digital signal processingtool for protection^ Sulphurhexafluoride (SF6) and Vacuum circuit breakers SLO-2 Characteristics – numericalproblems Application of threestep distance protection Loss of prime mover Functional blocks DSP Applications of SF6 and vacuum circuit breakers S- SLO-1 (^) Voltage Transformer for protection Carrier aided protection Bus bar protection scheme AI techniques to power system protection Comparison of circuit breakers SLO-2 Characteristics of current transformer Main components of carrier aided protection Types of bus bar protection Applications Of artificial intelligence in protection Testing of circuit breaker S- SLO-1 Electromechanicalrelays – construction Bus bar protection scheme Protection against over voltage - diverters, Digital protection - Introduction to RTDS Circuit breakers rating SLO-2 Relay operation - application Types of bus bar Lightning arrestor Digital substation Relay setting calculation and itsoperation Learning Resources

  1. Badriram& Vishwakarma, “Power System Protection’’, Tata McGraw-Hill Education,10th reprint, 2015

  2. Paithankar Y. G., S. R. Bhide., “Fundamentals of power system protection’’ PHI Learning Pvt. Ltd., 10th reprint,2010.

  3. J. Lewis Blackburn & Thomas J. Domin, Protective Relaying - Principles and Applications, Fourth Edition, CRC Press.

    1. Bhavesh R. Bhalja, R. P. Maheshwari, Nilesh Chothani,” oxford university press, Second Edition, 2018
    2. A. Kalam, D.P. Kothari, “Power System Protection and Communication”, New Age Science Ltd, 2009.
    3. Paul M. Anderson, “Power System Protection”, IEEE press series on Power Engineering, 1999.
    4. https://nptel.ac.in/courses/108101039/ Learning Assessment Bloom’s Level of Thinking Continuous Learning Assessment (50% weightage) (^) Final Examination (50% weightage) CLA – 1 (10%) CLA – 2 (15%) CLA – 3 (15%) CLA – 4 (10%)# Theory Practice Theory Practice Theory Practice Theory Practice Theory Practice Level 1 Remember Understand^ 40 % - 30 % - 30 % - 30 % - 30% - Level 2 Apply Analyze^ 40 % - 40 % - 40 % - 40 % - 40% - Level 3 Evaluate Create^ 20 % - 30 % - 30 % - 30 % - 30% - Total 100 % 100 % 100 % 100 % 100 %

CLA – 4 can be from any combination of these: Assignments, Seminars, Tech Talks, Mini-Projects, Case-Studies, Self-Study, MOOCs, Certifications, Conf. Paper etc.,

Course Designers Experts from Industry Experts from Higher Technical Institutions Internal Experts Er.R.PanneerSelvam, Former SE/TANGEDCO, [email protected] Prof.K.Shanti Swarup, IITM, [email protected] D.Ravichandran, [email protected] Dr. Swaroop Gajare, Lead Engineer, Power Systems Technologies, Eaton Research Labs, [email protected] Dr. P. Raja, NIT Tiruchirappalli, [email protected]^ Dr.M.Senthilkumar, [email protected]